Laserpro venus

Manufactured by Autodesk

The LaserPro Venus is a professional-grade laser engraving and cutting machine designed for precision work. It features a large work area, high-power laser, and advanced control software for accurate and efficient material processing.

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Lab products found in correlation

Autocad 2007, by Autodesk (2 mentions)

2 protocols using laserpro venus

Fabrication of Modular Microfluidic Chip

Cited 1 time

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The microfluidic chip was fabricated by using AutoCAD 2007 (Autodesk, USA) and a CO₂ laser machine (LaserPro Venus, GCC, Taiwan) for constructing channel patterns on a “poly(methyl methacrylate) (PMMA)” plate (length/width/depth: 270 mm/210 mm/1.5 mm), as described previously.^{29–32 (link)} The microfluidic chip (length/width/depth: 86 mm/50 mm/6 mm) consisted of three PMMA chips, namely the cover chip (with three inlets for sample injection and twenty screw orifices for binding), the middle chip (with a cross-junction channel and twenty screw orifices), and the bottom chip (with an outlet and twenty screw orifices). The three chips were integrated using screws (0.5 mm pitch, 4 mm diameter), as illustrated by ESI Fig. S1.† The microfluidic chip could be disassembled for reuse and cleaning by loosening the screws.^{29–32 (link)}

Yang C.H., Wang Y.C., Wang T.C., Chang Y.C., Lin Y.C., Chen P.F., Huang W.J., Wen H.Y., Lin Y.M., Kuo W.S., Wang Y.T, & Huang K.S. (2020). Facile synthesis of highly tunable monodispersed calcium hydroxide composite particles by using a two-step ion exchange reaction. RSC Advances, 10(23), 13700-13707.

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Facile Fabrication of Reusable Microfluidic Chip

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The microfluidic chip was designed by AutoCAD 2007 (Autodesk, San Rafael, CA, USA, USA); it was laid out on a conventional polymethyl methacrylate substrate (length, 86 mm; width, 43 mm; and depth, 2 mm) by using a computer-controlled CO₂ laser machine (LaserPro Venus, GCC, Taiwan) [34 (link),35 (link)]. The microfluidic channel chip shown in Figure 1A comprised three layers: the cover layer (containing 3 inlet ports and 20 screw holes), main layer (containing the cross-junction microchannels and screw holes), and bottom layer (containing one outlet port and screw holes). The three layers were integrated using screws (pitch, 0.5 mm and diameter, 4 mm) to produce a microfluidic chip (Figure 1B). This design of microfluidic chip is similar to the chips reported in our previous studies [36 (link)]. This microfluidic chip was highlighted in the facile fabrication process and disassembly module of screws. Each chip could be reused and cleaned after the tight screws were loosened.

Huang K.S., Yang C.H., Wang Y.C., Wang W.T, & Lu Y.Y. (2019). Microfluidic Synthesis of Vinblastine-Loaded Multifunctional Particles for Magnetically Responsive Controlled Drug Release. Pharmaceutics, 11(5), 212.

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